DE596466C - Circuit arrangement for motors that are fed by a rectifier - Google Patents

Description

GERMAN EMPIRE

ISSUED ON May 8, 1934

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21di GROUP

Patented in the German Empire on November 29, 1932

It has become known the speed of motors driven by a rectifier are fed by changing the field by means of ohmic resistors connected in parallel to regulate booths. It has also been suggested that this type of regulation be used if present grid controlled rectifier to apply.

The present invention is an improvement on the latter control and consists in the fact that a choke coil connected in parallel to the motor field is used for field control serves. The advantages of the invention should be based on the embodiment shown in the drawing are explained in more detail below.

The motor m receives its voltage from the grid-controlled rectifier g, which is fed from the alternating current network η via the transformer t. The grid control is indicated by b, the motor field winding by c , d represents. the adjustable choke coil according to the invention. If the voltage for the motors is now through grid

25 · control, the voltage and current curve no longer consists of the full half-waves, but only of parts of these half-waves, and the smaller the voltage is regulated down, the smaller these parts become in relation to the full half-wave. If the field winding c has no shunt at all, then the two inductances of the armature and the field are in series, the strong voltage pulsations therefore correspond to considerably weaker current changes Inductance connected in parallel, the current pulsations of which are naturally quite large. The field still has a fairly uniform excitation, on the other hand the strongly pulsating current flows from the cathode to earth via the armature, the ohmic shunt the motor is then proportional to the mean value of the pulsating armature current. the losses in the armature, however, are proportional to the square of the mean. the anchor will heat more so because of the large additional losses Pr, the efficiency of the machine will thus be smaller.

As is well known, the purely ohmic parallel resistance also has the disadvantage that at additional speed control due to stronger weakening of the field, frequent motor rollover caused when sudden load changes occur or the contact between pantographs and catenary is interrupted for a short time (so-called iron dancing). At a

*) The patent seeker stated as the inventor:

Willy Geserich in Berlin-Charlottenburg ..

If the load increases, the excess current corresponding to this increase occurs at the point in time of the increase not via the field winding, but via the purely ohmic parallel resistance and anchor to earth. So the field will not be proportionate so that the back EMF developed by the armature is also relatively large is low. These phenomena are most pronounced in iron dancing; because as well the pantograph has contact again, the armature is in series with the small one Ohmic parallel resistance, practically across the entire line voltage, since the increasing Current only goes through the field winding to an extremely small extent. the Back EMF of the armature is therefore very small, so that the network is practically over the armature is shorted.

So the parallel reactor avoids all of these disadvantages according to the invention. One can with grid control and strong valve throttling with the help of the choke coil, the field curve and thus the EMF curve can be determined as desired, and on the other hand the choke coil prevents motor flashovers even with strong field weakening, because The currents in the field winding and choke coil are now reduced even in the event of sudden load surges always distribute according to their self-inductance.

To the self-inductance of the choke coil with that of the field winding in desired To be able to adjust the ratio, the choke coil can be provided with an optionally adjustable air gap or make the winding of the choke coil from resistance material. One can also apply both measures at the same time or equip the choke coil with taps.

Claims (5)

Patent claims: 1. Circuit arrangement for motors whose speed is controlled by means of grid Rectifier and field change is regulated, characterized in that for field regulation a parallel to Motor field winding switched choke coil is used. 5 <> 2. Circuit arrangement according to claim i, characterized in that the Choke coil receives an air gap. 3. Circuit arrangement according to claim ι and 2, characterized in that that the air gap of the choke coil is adjustable. 4. Circuit arrangement according to claim ι to 3, characterized in that the winding of the choke coil is made of ^ ⁰ resistance material. 5. Circuit arrangement according to claim ι to 4, characterized in that that for the purpose of additional speed control the choke coil with taps is provided. For this purpose ι sheet of drawings